Difference between revisions of "2008 iTest Problems/Problem 58"
Rockmanex3 (talk | contribs) (WIP Solution) |
Rockmanex3 (talk | contribs) (Solution to Problem 58) |
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Using the definition of [[logarithms]], | Using the definition of [[logarithms]], | ||
<cmath>x = \log_{(\left(\frac{2}{3}\right)^\frac{1}{3})} (\frac{1}{100})</cmath> | <cmath>x = \log_{(\left(\frac{2}{3}\right)^\frac{1}{3})} (\frac{1}{100})</cmath> | ||
− | With a calculator, we can use change of base and get to the final answer. Without a calculator, we can use various logarithm properties. | + | With a calculator, we can use change of base and get to the final answer. Without a calculator, we can use various logarithm properties and the given approximations. |
<cmath>\begin{align*} | <cmath>\begin{align*} | ||
x &= \frac{\log_{10} \frac{1}{100}}{\frac{1}{3} \cdot \log_{10} (\frac{2}{3})} \\ | x &= \frac{\log_{10} \frac{1}{100}}{\frac{1}{3} \cdot \log_{10} (\frac{2}{3})} \\ | ||
− | &= \frac{-2}{\frac{1}{3}( \log_{10} (2) - \log_{10} (3) )} | + | &= \frac{-2}{\frac{1}{3}( \log_{10} (2) - \log_{10} (3) )} \\ |
+ | &= \frac{-2}{\frac{1}{3}( \log_{10} 10 - \log_{10} 5 - \log_{10} (3) )} \\ | ||
+ | &= \frac{-2}{\frac{1}{3}( 1 - 0.69837 - 0.47712)} \\ | ||
+ | &= \frac{2}{\frac{1}{3}( 0.47712 - 0.30103)} \\ | ||
+ | &= \frac{6}{0.17609} \\ | ||
+ | &= 34.1 | ||
\end{align*}</cmath> | \end{align*}</cmath> | ||
− | + | Since the current year is only <math>\tfrac{7}{10}</math> finished, the batteries would be 2 cm across in the year <math>\boxed{2042}.</math> | |
==See Also== | ==See Also== |
Latest revision as of 19:32, 4 August 2018
Problem
Finished with rereading Isaac Asimov's series, Joshua asks his father, "Do you think somebody will build small devices that run on nuclear energy while I'm alive?"
"Honestly, Josh, I don't know. There are a lot of very different engineering problems involved in designing such devices. But technology moves forward at an amazing pace, so I won't tell you we can't get there in time for you to see it. I go to a graduate school with a lady who now works on nuclear reactors. They're not small exactly, but they aren't nearly as large as most reactors. That might be the first step toward a nuclear-powered pocket-sized video game.
Hannah adds, "There are already companies designing batteries that are nuclear in the sense that they release energy from uranium hydride through controlled exo-energetic processes. This process is not the same as the nuclear fission going on in today's reactors, but we can certainly call it ."
"Cool!" Joshua's interest is piqued.
Hannah continues, "Suppose that right now in the year we can make one of these nuclear batteries in a battery shape that is meters . Let's say you need that size to be reduced to centimeters , in the same proportions, in order to use it to run your little video game machine. If every year we reduce the necessary volume of such a battery by , in what year will the batteries first get small enough?"
Joshua asks, "The battery shapes never change? Each year the new batteries are similar in shape - in all dimensions - to the batteries from previous years?"
"That's correct," confirms Joshua's mother. "Also, the base logarithm of is about and the base logarithm of is around ." This makes Joshua blink. He's not sure he knows how to use logarithms, but he does think he can compute the answer. He correctly notes that after years, the batteries will already be barely more than a sixth of their original width.
Assuming Hannah's prediction of volume reduction is correct and effects are compounded continuously, compute the first year that the nuclear batteries get small enough for pocket video game machines. Assume also that the year is complete.
Solution
Let be the number of years since 2008. The length of the battery across (in centimeters) can be modeled by the function We want the length of the battery across in the future to be 2 centimeters, so Using the definition of logarithms, With a calculator, we can use change of base and get to the final answer. Without a calculator, we can use various logarithm properties and the given approximations. Since the current year is only finished, the batteries would be 2 cm across in the year
See Also
2008 iTest (Problems) | ||
Preceded by: Problem 57 |
Followed by: Problem 59 | |
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